Display device

ABSTRACT

A display device includes: a curved display panel; at least one light source module configured to provide light to the display panel; a bottom case configured to accommodate the light source module; and at least one signal transmission unit connected to an end portion of the light source module, the signal transmission unit including at least one driving line transmitting a driving signal to the light source module and at least one base line transmitting a base signal.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority to and the benefit of Korean PatentApplication No. 10-2014-0142555, filed on Oct. 21, 2014, with the KoreanIntellectual Property Office, the disclosure of which is incorporatedherein in its entirety by reference.

BACKGROUND

1. Field

Embodiments of the present inventive concept relate to a display devicecapable of facilitating wiring processes between a light source moduleand a power supply configured to apply driving signals to the lightsource module.

2. Description of the Related Art

A liquid crystal display (LCD) device is a type of flat panel displays(FPDs), which is most widely used these days. An LCD device includes twosubstrates including electrodes formed thereon and a liquid crystallayer interposed therebetween. Upon applying voltage to two electrodes,liquid crystal molecules of the liquid crystal layer are rearranged,thereby adjusting an amount of transmitted light.

Such an LCD device may include a backlight unit. The backlight units maybe categorized into a direct type, an edge type, a corner type, and thelike according to a position of the light source.

In recent years, a light emitting diode (LED), which is characterized bylow power consumption and high efficiency, is usually used as a lightsource of a backlight unit.

Further, a light source module including a plurality of LEDs mounted ona printed circuit board (PCB) may be used for the backlight unit.

The light source module may receive driving signals from an externalpower supply and may emit light. For this purpose, wires may be disposedbetween the light source module and the power supply to connecttherebetween.

The direct-type backlight unit may include a large number of lightsource modules, and thus more wires may be disposed between the lightsource modules and the power supply.

In particular, a curved-type display device having such a direct-typebacklight unit may include, compared to a general display device, morelight source modules. This is mainly because the curved-type displaydevices are mostly provided in a quadrangular shape and curved along thelongitudinal direction of a long side of the quadrangular shape, whichis described below in detail.

That is, when the light source modules are arranged along thelongitudinal direction of a short side of the curved-type displaydevice, it is advantageous in that less light source modules arerequired. In this case, however, the light source modules may be curved,which incurs unstable operation of the light source modules.Accordingly, light source modules used for conventional curved-typedisplay devices are arranged along the longitudinal direction of thelong side of the display device. In such cases, the longitudinaldirection of each light source module may correspond to the longitudinaldirection of the short side which is not curved, such that the lightsource modules may not be curved. However, due to such structure, theconventional curved-type display device may require more light sourcemodules. Accordingly, in the conventional curved-type display device,wirings between the light source modules and the power supply may becomedisadvantageously complicated.

It is to be understood that this background of the technology section isintended to provide useful background for understanding the technologyand as such disclosed herein, the technology background section mayinclude ideas, concepts or recognitions that were not part of what wasknown or appreciated by those skilled in the pertinent art prior to acorresponding effective filing date of subject matter disclosed herein.

SUMMARY

Aspects of embodiments of the present inventive concept are directed toa display device capable of facilitating wiring processes between lightsource modules and a power supply.

According to an exemplary embodiment of the present inventive concept, adisplay device includes: a curved display panel; at least one lightsource module configured to provide light to the display panel; a bottomcase configured to accommodate the light source module; and at least onesignal transmission unit connected to an end portion of the light sourcemodule, the signal transmission unit including at least one driving linetransmitting a driving signal to the light source module and at leastone base line transmitting a base signal.

The signal transmission unit may be a flexible printed circuit.

The signal transmission unit may include: an input pad unit respectivelyconnected to an end portion of the driving line and an end portion ofthe base line and configured to receive a driving signal outputted froma power supply; and an output pad unit respectively connected to anotherend portion of the driving line, an end portion of a branch linebranching off from the base line, and the light source module.

The signal transmission unit may further include an insulating layerbetween the driving line and the branch line.

The display device may further include a connector configured to connectthe output pad unit and the light source module.

The driving line may have a plurality of driving lines, a driving linefarther away from the input pad unit has a greater line width than thatclose to the input pad unit.

The branch line has a plurality of branch lines, a branch line fartheraway from the input pad unit has a greater line width than that close tothe input pad unit.

Each of the light source modules may include: a light source arrayincluding at least one light source configured to emit light; a firsttransmission line configured to supply a driving signal applied from oneof the output pad units to one side of the light source array; a secondtransmission line configured to supply a base signal applied from one ofthe output pad units to another side of the light source array; a padunit on which an end portion of the first transmission line and an endportion of the second transmission line are disposed; and a body unit onwhich a remaining portion of the first and second transmission lines,excluding the end portion of the first transmission line and the endportion of the second transmission line, and the light source array aredisposed.

The first transmission line has a plurality of first transmission lines,a transmission line farther away from the input pad unit has a greaterline width than that close to the input pad unit.

The signal transmission unit may be disposed between the light sourcemodules and one side portion of the bottom case.

The signal transmission unit may be attached to a base portion of thebottom case.

The display device may further include an adhesive member disposedbetween the signal transmission unit and the base portion of the bottomcase.

The bottom case may have a connecting hole through which the input padunit of the signal transmission unit is exposed.

The plurality of driving lines and at least one base line are disposedon a same layer in the signal transmission unit.

The plurality of light source modules comprise the first transmissionlines having a same width or the second transmission lines having a samewidth.

According to embodiments of the present inventive concept, a displaydevice may have the following effects.

First, according to embodiments of the present inventive concept, asignal transmission unit including driving lines may function as wiringsbetween light source modules and a power supply. Accordingly, the wiringbetween the light source modules and the power supply may befacilitated, thereby capable of reducing time for wiring processes.

Second, according to embodiments of the present inventive concept, lightsource modules disposed farther from an input pad unit may be connectedto a driving line having a greater line width. Accordingly, deviationbetween driving signals applied to the light source modules may bereduced.

The foregoing is illustrative only and is not intended to be in any waylimiting. In addition to the illustrative aspects, embodiments, andfeatures described above, further aspects, embodiments, and featureswill become apparent by reference to the drawings and the followingdetailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other features and aspects of the present disclosure ofinventive concept will be more clearly understood from the followingdetailed description taken in conjunction with the accompanyingdrawings, in which:

FIG. 1 is an exploded perspective view illustrating a display deviceaccording to an exemplary embodiment;

FIG. 2 is a cross-sectional view taken along line I-I′ of FIG. 1;

FIG. 3 is a detailed configuration view illustrating a first signaltransmission unit of FIG. 1;

FIG. 4 is an enlarged view illustrating the first signal transmissionunit of FIG. 3;

FIG. 5 is a detailed configuration view illustrating a light sourcemodule illustrated in FIG. 1;

FIG. 6 is an equivalent circuit diagram illustrating a light sourcearray of FIG. 5;

FIG. 7 is a view illustrating a method of connecting the first signaltransmission unit and the first light source module of FIG. 4; and

FIG. 8 is a detailed configuration view illustrating a bottom case ofFIG. 1.

DETAILED DESCRIPTION

Advantages and features of the present inventive concept and methods forachieving them will be made clear from embodiments described below indetail with reference to the accompanying drawings. The presentinventive concept may, however, be embodied in many different forms andshould not be construed as being limited to the embodiments set forthherein. Rather, these embodiments are provided so that this disclosurewill be thorough and complete, and will fully convey the scope of theinventive concept to those skilled in the art. The present inventiveconcept is merely defined by the scope of the claims. Therefore,well-known constituent elements, operations and techniques are notdescribed in detail in the embodiments in order to prevent the presentinventive concept from being obscurely interpreted. Like referencenumerals refer to like elements throughout the specification.

In the drawings, the thickness of layers and regions may be exaggeratedfor clarity. In addition, when a layer is described to be formed onanother layer or on a substrate, this means that the layer may be formedon the other layer or on the substrate, or a third layer may beinterposed between the layer and the other layer or the substrate. Itwill be understood that when an element such as a layer, film, region,or substrate is referred to as being “on” another element, it can bedirectly on the other element or intervening elements may also bepresent between the element and the another element. In contrast, whenan element is referred to as being “directly on” another element, thereare no intervening elements present.

The spatially relative terms “below”, “beneath”, “lower”, “above”,“upper”, and the like, may be used herein for ease of description todescribe the relations between one element or component and anotherelement or component as illustrated in the drawings. It will beunderstood that the spatially relative terms are intended to encompassdifferent orientations of the device in use or operation, in addition tothe orientation depicted in the drawings. For example, in the case wherea device shown in the drawing is turned over, the device disposed“below” or “beneath” another device may be placed “above” anotherdevice. Accordingly, the illustrative term “below” may include both thelower and upper positions. The device may also be oriented in the otherdirection, and thus the spatially relative terms may be interpreteddifferently depending on the orientations.

Throughout the specification, when an element is referred to as being“connected” to another element, the element is “directly connected” tothe other element, or “electrically connected” to the other element withone or more intervening elements interposed therebetween. It will befurther understood that the terms “comprises,” “comprising,” “includes”and/or “including,” when used in this specification, specify thepresence of stated features, integers, steps, operations, elements,and/or components, but do not preclude the presence or addition of oneor more other features, integers, steps, operations, elements,components, and/or groups thereof.

It will be understood that, although the terms “first,” “second,”“third,” and the like may be used herein to describe various elements,these elements should not be limited by these terms. These terms areonly used to distinguish one element from another element. Thus, “afirst element” discussed below could be termed “a second element” or “athird element,” and “a second element” and “a third element” can betermed likewise without departing from the teachings herein.

Unless otherwise defined, all terms used herein (including technical andscientific terms) have the same meaning as commonly understood by thoseskilled in the art to which this inventive concept pertains. It will befurther understood that terms, such as those defined in commonly useddictionaries, should be interpreted as having a meaning that isconsistent with their meaning in the context of the relevant art andwill not be interpreted in an ideal or excessively formal sense unlessclearly defined in the present specification.

FIG. 1 is an exploded perspective view illustrating a display deviceaccording to an exemplary embodiment and FIG. 2 is a cross-sectionalview taken along line I-I′ of FIG. 1.

The display device according to an exemplary embodiment is a curved-typedisplay device in which both sides are roundly curved with respect tothe center portion of a display area. Hereinafter, unless describedotherwise, all elements may include bendable materials.

The display device according to an exemplary embodiment may include, asdescribed in FIG. 1, a bottom case 100, a light source module 148, areflection plate 200, a diffusion plate 400, an optical sheet 510, amold frame 600, a display panel 700, and a top case 800. Of theabove-listed elements, the diffusion plate 400, the optical sheet 510,the mold frame 600, the display panel 700 and the top case 800 may havea roundly curved form.

The bottom case 100 may have an accommodation area therein. In theaccommodation area, the plurality of light source modules 148, aplurality of support means 168 and the reflection plate 200 may bedisposed. To secure the accommodation area, the bottom case 100 mayinclude a base portion 111 and a plurality of side portions 111 a, 111b, 111 c, and 111 d.

The base portion 111 may have a quadrangular shape in which both sidesare roundly curved with respect to the center portion.

Each of the first, second, third, and fourth side portions 111 a, 111 b,111 c, and 111 d may protrude from the respective edge portions of thebase portion 111 to have a predetermined height. Edge portions ofadjacent side portions 111 b may be connected to each other. A spacesurrounded by the first, second, third, and fourth side portions 111 a,111 b, 111 c, and 111 d and the base portion 111 refers to theaccommodation area.

Locking protrusions 635 may be respectively disposed on the first andthird side portions 111 a and 111 c opposed to each other. The moldframe 600 may be fixed to the bottom case 100 by the locking protrusions635. The first and third side portions 111 a and 111 c may partiallyprotrude toward inner surfaces of the mold frame 600, thereby forminglocking protrusions 635 having a hook form.

The second and fourth side portions 111 b and 111 d may have a curvedform in which both sides are roundly curved with respect to therespective center portion.

The light source modules 148 may generate light. The light sourcemodules 148 may be disposed on the base portion 111 of the bottom case100. Herein, the light source modules 148 may be categorized into twogroups. In detail, a plurality of light source modules 148 disposedbetween the center portion of the base portion 111 and the second sideportion 111 b are defined as light source modules of a first group; anda plurality of light source modules 148 disposed between the centerportion of the base portion 111 and the fourth side portion 111 d aredefined as light source modules of a second group.

The light source modules of the first group may be electricallyconnected to the first signal transmission unit 171, while those of thesecond group may be electrically connected to the second signaltransmission unit 172.

Light sources 134 provided in the light source modules 148 may be atleast partially exposed over the reflection plate 200 through a throughhole 201 extending through the reflection plate 200.

The first signal transmission unit 171 may be disposed on the baseportion 111. In detail, the first signal transmission unit 171 may bedisposed between the light source modules of the first group and thesecond side portion 111 b. The first signal transmission unit 171 mayhave a curved form in which both sides are roundly curved with respectto the center portion. An adhesive member (not illustrated) may befurther provided between the first signal transmission unit 171 and thebase portion 111. The first signal transmission unit 171 may be fixed tothe base portion 111 by the adhesive member.

The first signal transmission unit 171 may transmit a plurality ofdriving signals and at least one base signal outputted from an externalpower supply (not illustrated) to the light source modules of the firstgroup. The first signal transmission unit 171 may be, for instance, aflexible printed circuit.

The second signal transmission unit 172 may be provided on the baseportion 111. In detail, the second signal transmission unit 172 may bedisposed between the light source modules of the second group and thefourth side portion 111 d. The second signal transmission unit 172 mayhave a curved form in which both sides are roundly curved with respectto the center portion. An adhesive member (not illustrated) may befurther provided between the second signal transmission unit 172 and thebase portion 111. The second signal transmission unit 172 may be fixedto the base portion 111 by the adhesive member.

The second signal transmission unit 172 may transmit a plurality ofdriving signals and at least one base signal outputted from theabove-described external power supply to the light source modules of thesecond group. The second signal transmission unit 172 may be, forinstance, a flexible printed circuit.

The plurality of driving signals and at least one base signal outputtedfrom the power supply to the first signal transmission unit 171 may bedifferent from the plurality of driving signals and at least one basesignal outputted from the power supply to the second signal transmissionunit 172, respectively.

Both of the driving signals and the base signal may be voltage signal.In this case, the driving signals may have greater voltage than the basesignal. The driving signals may respectively have different voltagelevels. Meanwhile, the base signal may have a zero voltage.

The reflection plate 200 may reflect light emitted from the light sourcemodules 148 to the display panel 700. The reflection plate 200 may bedisposed between the bottom case 100 and the diffusion plate 400.

The diffusion plate 400 may be disposed on the reflection plate 200. Thediffusion plate 400 is configured to obtain uniform luminancedistribution of light emitted from the light source module 148 andprovide the light to the optical sheet 510.

At least one support means 168 may be disposed under the diffusion plate400 to support the diffusion plate 400. The support means 168 may bedisposed on the base portion 111. The support means 168 may be exposedover the reflection plate 200 through a through-hole 203 of thereflection plate 200 disposed thereon.

The optical sheet 510 is configured to diffuse and/or collimate thelight directed from the diffusion plate 400. The optical sheet 510 maybe disposed, as illustrated in FIG. 1, between the diffusion plate 400and the display panel 700. The optical sheet 510 may include a diffusionsheet 510 a, a prism sheet 510 b, and a protection sheet 510 c. Thediffusion sheet 510 a, the prism sheet 510 b and the protection sheet510 c may be sequentially laminated on the diffusion plate 400 in theorder listed.

The diffusion sheet 510 a may diffuse light directed from the diffusionplate 400 and may reduce or prevent the light from being partlyconcentrated.

The prism sheet 510 b may be disposed on the diffusion sheet 510 a andmay collimate light diffused from the diffusion sheet 510 a in adirection perpendicular to the display panel 700. For this purpose,prisms having a triangular cross-section may be disposed in apredetermined array on one surface of the prism sheet 510 b.

The protection sheet 510 c may be disposed on the prism sheet 510 b, mayprotect a surface of the prism sheet 510 b, and may diffuse light toachieve equally distributed light. The light leaving the protectionsheet 510 c may be guided to the display panel 700.

The mold frame 600 may be fixed to the bottom case 100. Further, themold frame 600 may support the display panel 700 and the top case 800,and may maintain gaps between the display panel 700 and the opticalsheet 510 to be constant. For this purpose, the mold frame 600 may havea quadrangular frame shape including first and second supports 611 a and611 b.

The first support 611 a may be disposed on the first, second, third, andfourth side portions 111 a, 111 b, 111 c, and 111 d and may support thetop case 800 disposed on the first support 611 a. An inserting hole 640may be formed on the first support 611 a to allow the locking protrusion635 of the first and third side portions 111 a and 111 c to be inserted.

The second support 611 b may extend from an inner edge portion of thefirst support 611 a to a space between the optical sheet 510 and thedisplay panel 700. The second support 611 b may have a height shorterthan the first support 611 a. Due to the height difference between thesecond support 611 b and the first support 611 a, a space may be securedbetween the top case 800 and the second support 611 b. An edge portionof the display panel 700 may be disposed in the space.

The display panel 700 is configured to display images. The display panel700 may be divided into a display area and a non-display area. An imageis displayed on the display area and signal lines for transmitting imagedata, various control signals, and various power signals required todisplay the image may be disposed on the non-display area. Further, adriving circuit unit configured to provide the image data, the variouscontrol signals, and the various power signals may be further provided,partially or entirely, on the non-display area or on the above-describeddriving circuit board.

The display panel 700 according to the present inventive concept may bean LCD panel, but is not limited thereto. In addition to the LCD panel,any panel-type structures that may display images by receiving lightfrom the backlight unit may be utilized.

The top case 800 may have a quadrangular-frame form that covers thenon-display area including an edge portion of a front surface of thedisplay panel 700. The top case 800 may surround an upper surface and alateral surface of the first support 311 a of the mold frame 600. Forthis purpose, the top case 800 may include an upper cover 833 aconfigured to cover the upper surface of the first support 611 a and aside cover 833 b configured to cover the lateral surface of the firstsupport 611 a. Meanwhile, although not illustrated, a hook may beprovided inside the side cover 833 b. The hook may be in contact with alower surface of a fixing member provided in the mold frame 600. The topcase 800 may be fixed to the mold frame 600 by the hook.

Hereinafter, the first signal transmission unit 171 will be described indetail with reference to FIG. 3.

FIG. 3 is a detailed configuration view illustrating the first signaltransmission unit in FIG. 1.

The first signal transmission unit 171 may include, as illustrated inFIG. 3, an input pad unit 180, a plurality of output pad units 190, aplurality of driving lines 175, and a base line 177. Meanwhile, thefirst signal transmission unit 171 may further include a plurality ofbranch lines 178 branching off from the base line 177. The branch lines178 may intersect at least one driving line 175. The branch lines 178may be connected to the base line 177. Herein, when a base signal has azero voltage, the base line 177 may be grounded.

An end portion of each of the plurality of driving line 175 and an endportion of the base line 177 may be disposed on the input pad unit 180.Driving signals and a base signal provided from the power supply may beapplied to the input pad unit 180. That is, the driving signals appliedto the input pad unit 180 may be respectively applied to an end portionof each of the driving lines 175. Further, the base signal applied tothe input pad unit 180 may be applied to an end portion of the base line177.

Another end portion of each of the plurality of driving lines 175 andend portions of the branch lines 178 may be disposed on the output padunit 190.

The first signal transmission unit 171 may further include an insulationlayer (not illustrated) disposed between the driving lines 175 and thebranch lines 178. That is, the driving line 175 and the branch line 178may be disposed on different layers, respectively, in the first signaltransmission unit 171. For example, the driving lines 175 may bedisposed on the insulation layer and the branch lines 178 and the baseline 177 may be disposed under the insulation layer. In this case, anend portion of the base line 177 disposed on the input pad unit 180 andthe end portions of the branch lines 178 disposed on the output padunits 190 may be exposed outwards through through-holes extendingthrough the insulation layer.

Meanwhile, although not illustrated, the driving lines 175 and thebranch lines 178 may be disposed on the same layer in the first signaltransmission unit 171. In this case, the driving lines 175 may notintersect the branch lines 178.

Further, although not illustrated, the driving lines 175 may be disposedon one side surface of the first signal transmission unit 171, and thebranch lines 178 may be disposed on another side surface of the firstsignal transmission unit 171. The another side surface of the firstsignal transmission unit 171 may oppose the one surface thereof.

The first signal transmission unit 171 may further have insertinggrooves 185 respectively disposed at both sides of the output pad unit190. The light source modules of the first group may be inserted intothe first signal transmission unit 171 through these inserting grooves185.

According to the present exemplary embodiment, the first signaltransmission unit 171 including the driving lines 175 may be disposedbetween the light source modules of the first group and the powersupply. Accordingly, the wirings between the light source modules of thefirst group and the power supply may be facilitated.

Meanwhile, at least two of the plurality of driving lines 175 may havedifferent line width. For instance, the plurality of driving lines 175may have greater line width as they are connected to the light sourcemodule disposed farther away from the input pad unit 180. In this case,deviation between the driving signals inputted to the light sourcemodules may decrease. Such a structure will be described in detail withreference to FIG. 4.

FIG. 4 is an enlarged view illustrating the first signal transmissionunit 171 of FIG. 3.

First, the output pad units 190, sequentially from the one closest tothe input pad unit 180, may be defined as a first output pad unit 190 a,a second output pad unit 190 b, a third output pad unit 190 c, a fourthoutput pad unit 190 d, and a fifth output pad unit 190 e. Then, thedriving line 175 of which another end portion is disposed on the firstoutput pad unit 190 a is defined as a first driving line 175 a, thedriving line 175 of which another end portion is disposed on the secondoutput pad unit 190 b is defined as a second driving line 175 b, thedriving line 175 of which another end portion is disposed on the thirdoutput pad unit 190 c is defined as a third driving line 175 c, thedriving line 175 of which another end portion is disposed on the fourthoutput pad unit 190 d is defined as a fourth driving line 175 d, and thedriving line 175 of which another end portion is disposed on the fifthoutput pad unit 190 e is defined as a fifth driving line 175 d,respectively.

Also, the light source modules of the first group are defined asfollows: the light source module 148 connected to the first output padunit 190 a is defined as a first light source module 148 a, the lightsource module 148 connected to the second output pad unit 190 b isdefined as a second light source module 148 b, the light source module148 connected to the third output pad unit 190 c is defined as a thirdlight source module 148 c; the light source module 148 connected to theforth output pad unit 190 d is defined as a fourth light source module148 d; and the light source module 148 connected to the fifth output padunit 190 e is defined as a fifth light source module 148 e.

In this case, the first driving line 175 a connected to the first lightsource module 148 a which is the closest to the input pad unit 180 mayhave the smallest line width. On the other hand, the fifth driving line175 e connected to the fifth light source module 148 e which is disposedthe farthest from the input pad unit 180 may have the greatest linewidth. Also, the second driving line 175 b may have a greater line widththan the first driving line 175 a, the third driving line 175 c may havea greater line width than the second driving line 175 b, and the fourthdriving line 175 d may have a greater line width than the third drivingline 175 c.

Meanwhile, the plurality of branch lines 178 may have different linewidths from each other. The detailed description in this regard willfollow.

First, the branch line 178 of which an end portion is disposed on thefirst output pad unit 190 a is defined as a first branch line 178 a; thebranch line 178 of which an end portion is disposed on the second outputpad unit 190 b is defined as a second branch line 178 b; the branch line178 of which an end portion is disposed on the third output pad unit 190c is defined as a third branch line 178 c; the branch line 178 of whichan end portion is disposed on the fourth output pad unit 190 d isdefined as a fourth branch line 178 d; and the branch line 178 of whichan end portion is disposed on the fifth output pad unit 190 e is definedas a fifth branch line 178 e.

In this case, the first branch line 178 a connected to the first lightsource module 148 a which is the closest to the input pad unit 180 hasthe smallest line width. On the other hand, the fifth branch line 178 econnected to the fifth light source module 148 e which is disposed thefarthest from the input pad unit 180 has the greatest line width. Also,the second branch line 178 b has a greater line width than the firstbranch line 178 a; the third branch line 178 c has a greater line widththan the second branch line 178 b; and the fourth branch line 178 d hasa greater line width than the third branch line 178 c.

Meanwhile, the second signal transmission unit 172 has practically thesame configuration as the first signal transmission unit 171; thus,detailed configuration of the second signal transmission unit 172 willmake reference to the above FIGS. 1, 3, 4 and the related description.

FIG. 5 is a detailed configuration view illustrating a light sourcemodule illustrated in FIG. 1. FIG. 6 is an equivalent circuit diagramillustrating a light source array of FIG. 5.

The light source module 148 may include, as illustrated in FIG. 5, alight source array 144, a first transmission line 161, a secondtransmission line 162, a pad unit 154, and a body unit 153.

The light source array 144 may include at least one light source 134configured to emit light. The light source 134 may be a light emissionpackage including at least one LED. In some embodiments, one lightemission package may include a red LED emitting red light, a green LEDemitting green light, and a blue LED emitting blue light therein. Thelight emission package may combine light of three colors to producewhite light. In some embodiments, the light emission package may includeonly a blue LED therein among the above-described LEDs of three colors.In this case, fluorescent members (e.g., phosphors) may be formed in alight emitting unit of the blue LED so as to convert blue light intowhite light.

The light source array 144 may include, as illustrated in FIG. 6, aplurality of LEDs 134 connected to each other in series between thefirst transmission line 161 and the second transmission line 162.

The first transmission line 161 may supply a driving signal applied fromone of the output pad units 190 to one side of the light source array144. For example, the first transmission line 161 disposed in the firstlight source module 148 a of FIG. 4 may supply a driving signal appliedto the first output pad unit 190 a to one side of the light source array144.

The second transmission line 162 may supply a base signal applied fromone of the output pad units 190 to another side of the light sourcearray 144. For example, the second transmission line 162 disposed in thefirst light source module 148 a of FIG. 4 may supply a base signalapplied to the first output pad unit 190 a to another side of the lightsource array 144.

An end portion of the first transmission line 161 and an end portion ofthe second transmission line 162 may be disposed on the pad unit 154.Also, the other portion of the first and second transmission lines 161and 162 excluding an end portion of the first transmission line 161 andthat of the second transmission line 162, and the light source array 144may be disposed on the body unit 153.

The pad unit 154 and the body unit 153 may be integrally formed. The padunit 154 and the body unit 153 may include a PCB (Printed CircuitBoard).

Meanwhile, although not illustrated, the light source modules 148 a, 148b, 148 c, 148 d, and 148 e may be connected to one another in series. Inthis case, the light source modules 148 a, 148 b, 148 c, 148 d, and 148e may be connected between a single driving line and the base line 177.In this case, the single driving line may be connected to the firstlight source module 148 a which is disposed the most adjacent to theinput pad unit 180, and the base line 177 may be connected to the fifthlight source module 148 e which is disposed the most farthest from theinput pad unit 180. For example, the single driving line may beconnected to the first transmission line 161 of the first light sourcemodule 148 a, and the second transmission line 162 of the first lightsource module 148 a may be connected to the first transmission line 161of the second light source module 148 b through a first connection line.Herein, the first connection line may be disposed in the first signaltransmission unit 171. Likewise, the second transmission line 162 of thesecond light source module 148 b may be connected to the firsttransmission line 161 of the third light source module 148 c through asecond connection line of the first signal transmission unit 171. Insuch a manner, the second transmission line 162 and the firsttransmission line 161 of adjacent light source modules may be connectedto each other through a corresponding connection line. However, thesecond transmission line 162 of the fifth light source module 148 e maybe connected to the base line 177. Meanwhile, the single driving linemay not be connected to the other light source modules 148 b, 148 c, 148d, and 148 e, except for the first light source module 148 a, and thebase line 177 may not be connected to the other light source modules 148a, 148 b, 148 c, and 148 d, except for the fifth light source module 148e. In such a structure, the aforementioned connection lines may eachhave the same line width. Further, the first transmission lines 161 ofeach of the light source modules 148 a, 148 b, 148 c, 148 d, and 148 emay have the same line width, and the second transmission lines 162 ofeach of the light source modules 148 a, 148 b, 148 c, 148 d, and 148 emay have the same line width. Further, the first transmission line 161and the second transmission line 162 may have the same line width.

FIG. 7 is a view illustrating a method of connecting the first signaltransmission unit 171 and the first light source module 148 a of FIG. 4.

As illustrated in FIG. 7, the first signal transmission unit 171 and thefirst light source module 148 a may be connected to each other using aconnector 900. Herein, the connector 900 refers to a two-way connectorand may include, as illustrated in FIG. 7, a first connecting groove 900a to which the first output pad unit 190 a of the first signaltransmission unit 171 is inserted and a second connecting groove 900 bto which the pad unit 154 of the first light source module 148 a isinserted. Although not illustrated, the first connection groove 900 aand the second connection groove 900 b may include therein a firstconnection terminal configured to connect the first driving line 175 aand the first transmission line 161, and a second connection terminalconfigured to connect the first branch line 178 a and the secondtransmission line 162.

When the first output pad unit 190 a of the first signal transmissionunit 171 and the connector 900 are connected to each other, edgeportions of both sides of the connector 900 may be inserted to insertingholes 185 formed on both sides of the first output pad unit 190 a.

Meanwhile, although not illustrated, the other output pad units and theother light source modules provided on the first signal transmissionunit 171 may be also connected to each other using other connectorshaving the same structure illustrated in FIG. 7.

Meanwhile, the second signal transmission unit 172 and the light sourcemodules of the second group may be connected to each other using otherconnectors having the same structure illustrated in FIG. 7.

FIG. 8 is a detailed configuration view illustrating a bottom case ofFIG. 1.

As illustrated in FIG. 8, the bottom case 100 may further have at leastone connecting hole 123 a and 123 b. Referring to FIG. 8, the connectingholes 123 a and 123 b may be formed on both sides of the first side 111a.

The input pad unit 180 of the first signal transmission unit 171 may beexposed outwards through the first connecting hole 123 a. The input padunit 180 of the first signal transmission unit 171 may be connected to afirst flexible flat cable (not shown). The first flexible flat cable mayconnect the input pad unit 180 of the first signal transmission unit 171and the power supply, thereby transmitting the driving signals appliedfrom the power supply to the input pad unit 180 of the first signaltransmission unit 171. An input connector may be provided in the inputpad unit 180 of the first signal transmission unit 171. The inputconnector may be connected to an output connector of the first flexibleflat cable.

The input pad unit of the second signal transmission unit 172 may beexposed outwards through the second connecting hole 123 b. The input padunit of the second signal transmission unit 172 may be connected to thesecond flexible flat cable (not shown). The second flexible flat cablemay connect the input pad unit of the second signal transmission unit172 and the power supply, thereby transmitting driving signals appliedfrom the power supply to the input pad unit 180 of the second signaltransmission unit 172. An input connector may be provided on the inputpad unit 180 of the second signal transmission unit 172. The inputconnector may be connected to an output connector of the second flexibleflat cable.

Meanwhile, the position of the first and second connecting holes 123 aand 123 b may vary according to the position of the input pad unit ofthe first and second signal transmission units 171 and 172. For example,when the input pad unit 180 of the first signal transmission unit 171 isdisposed in the center portion of the first signal transmission unit171, the first connecting hole 123 a may be formed in the center portionof the second side portion 111 b.

The first transmission line 161 has a plurality of first transmissionlines, a first transmission line 161 farther away from the input padunit 180 has a greater line width than that close to the input pad unit180.

It will be appreciated that various embodiments in accordance with thepresent disclosure have been described herein for purposes ofillustration, and that various modifications may be made withoutdeparting from the scope and spirit of the present teachings.Accordingly, the various embodiments disclosed herein are not intendedto be limiting of the true scope and spirit of the present teachings.

What is claimed is:
 1. A display device comprising: a curved displaypanel; at least one light source module configured to provide light tothe display panel; a bottom case configured to accommodate the lightsource module; and at least one signal transmission unit connected to anend portion of the light source module, the signal transmission unitcomprising at least one driving line transmitting a driving signal tothe light source module and at least one base line transmitting a basesignal, wherein the signal transmission unit includes an input pad unitconnected to an end portion of the driving line and an end portion ofthe base line, and configured to receive a driving signal outputted froma power supply, and an output pad unit connected to another end portionof the driving line and another end portion of the base line, an endportion of a branch line branching off from the base line, and whereinthe driving line has a plurality of driving lines and a driving linefarther away from the input pad unit has a greater line width than thatclose to the input pad unit.
 2. The display device of claim 1, whereinthe signal transmission unit is a flexible printed circuit.
 3. Thedisplay device of claim 1, wherein the signal transmission unit furthercomprises an insulating layer between the driving line and the branchline.
 4. The display device of claim 1, wherein the signal transmissionunit further comprises a connector configured to connect the output padunit and the light source module.
 5. The display device of claim 1,wherein the branch line has a plurality of branch lines, a branch linefarther away from the input pad unit has a greater line width than thatclose to the input pad unit.
 6. The display device of claim 5, whereinthe bottom case has a connecting hole through which the input pad unitof the signal transmission unit is exposed.
 7. The display device ofclaim 1, wherein the bottom case has a connecting hole through which theinput pad unit of the signal transmission unit is exposed.
 8. Thedisplay device of claim 1, wherein the signal transmission unit isdisposed between the light source modules and one side portion of thebottom case.
 9. The display device of claim 8, wherein the signaltransmission unit is attached to a base portion of the bottom case. 10.The display device of claim 9, further comprising an adhesive memberdisposed between the signal transmission unit and the base portion ofthe bottom case.
 11. The display device of claim 1, wherein the bottomcase has a connecting hole through which the input pad unit of thesignal transmission unit is exposed.
 12. The display device of claim 1,wherein the plurality of driving lines and the at least one base lineare disposed on a same layer in the signal transmission unit.
 13. Adisplay device comprising: a curved display panel; at least one lightsource module configured to provide light to the display panel; a bottomcase configured to accommodate the light source module; and at least onesignal transmission unit connected to an end portion of the light sourcemodule, the signal transmission unit comprising at least one drivingline transmitting a driving signal to the light source module and atleast one base line transmitting a base signal, wherein the signaltransmission unit includes an input pad unit connected to an end portionof the driving line and an end portion of the base line, and configuredto receive a driving signal outputted from a power supply, and an outputpad unit connected to another end portion of the driving line andanother end portion of the base line, an end portion of a branch linebranching off from the base line, and wherein each of the light sourcemodules comprises: a light source array comprising at least one lightsource configured to emit light; a first transmission line configured tosupply a driving signal applied from one of the output pad units to oneside of the light source array; a second transmission line configured tosupply a base signal applied from one of the output pad units to anotherside of the light source array; a pad unit on which an end portion ofthe first transmission line and an end portion of the secondtransmission line are disposed; and a body unit on which a remainingportion of the first and second transmission lines, excluding the endportion of the first transmission line and the end portion of the secondtransmission line, and the light source array are disposed.
 14. Thedisplay device of claim 13, wherein the first transmission line has aplurality of first transmission lines, a transmission line farther awayfrom the input pad unit has a greater line width than that close to theinput pad unit.
 15. The display device of claim 14, wherein the bottomcase has a connecting hole through which the input pad unit of thesignal transmission unit is exposed.
 16. The display device of claim 13,wherein the plurality of light source modules comprise the firsttransmission lines having a same width or the second transmission lineshaving a same width.